U.S. patent application number 16/607433 was filed with the patent office on 2021-05-13 for signal processing method and device.
The applicant listed for this patent is CHINA ACADEMY OF TELECOMMUNICATIONS TECHNOLOGY. Invention is credited to Qiubin GAO, Hui LI, Rakesh TAMRAKAR.
Application Number | 20210143952 16/607433 |
Document ID | / |
Family ID | 1000005388909 |
Filed Date | 2021-05-13 |
United States Patent
Application |
20210143952 |
Kind Code |
A1 |
TAMRAKAR; Rakesh ; et
al. |
May 13, 2021 |
SIGNAL PROCESSING METHOD AND DEVICE
Abstract
Embodiments of the present disclosure provide a signal
processing method and a signal processing device, which relate to
the field of communication technology and used for the purpose of
saving signaling resources. The signal processing method provided
by embodiments of the present disclosure includes: transmitting a
first indication message to a terminal device, wherein the first
indication message is to trigger the terminal device to transmit
feedback information on pilot signals; transmitting N downlink
pilot signals to the terminal device, where N is an integer greater
than or equal to 2, and the transmission manner of the N downlink
pilot signals is semi-persistent transmission or aperiodic
transmission, so that the terminal device, according to an acquired
precoding manner of the downlink pilot signals and the first
indication message, determines a feedback manner of the feedback
information on the N downlink pilot signals and performs feedback,
and wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the N downlink
pilot signals. In the embodiments of the present disclosure, the
base station or the terminal device may not transmit feedback
information on a plurality of pilot signals, or may one-time
transmit feedback information on a plurality of pilot signals,
thereby effectively saving signaling resources.
Inventors: |
TAMRAKAR; Rakesh; (Beijing,
CN) ; GAO; Qiubin; (Beijing, CN) ; LI;
Hui; (Beijing, CN) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
CHINA ACADEMY OF TELECOMMUNICATIONS TECHNOLOGY |
Beijing |
|
CN |
|
|
Family ID: |
1000005388909 |
Appl. No.: |
16/607433 |
Filed: |
March 28, 2018 |
PCT Filed: |
March 28, 2018 |
PCT NO: |
PCT/CN2018/080900 |
371 Date: |
October 23, 2019 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
H04B 7/0645 20130101;
H04L 1/0026 20130101; H04L 5/0057 20130101; H04L 5/0048 20130101;
H04B 7/0695 20130101 |
International
Class: |
H04L 5/00 20060101
H04L005/00; H04L 1/00 20060101 H04L001/00; H04B 7/06 20060101
H04B007/06 |
Foreign Application Data
Date |
Code |
Application Number |
Apr 26, 2017 |
CN |
201710283017.6 |
Claims
1-5. (canceled)
6. A signal processing method, which is applied to a terminal
device, the method comprising: receiving a first indication message
from a base station, wherein the first indication message is to
trigger transmission of feedback information on pilot signals;
receiving N downlink pilot signals transmitted by the base station,
and measuring the N downlink pilot signals respectively, where N is
an integer greater than or equal to 2, and the transmission manner
of the N downlink pilot signals is semi-persistent transmission or
aperiodic transmission; acquiring a precoding manner of the
downlink pilot signals; and determining a feedback manner of the
feedback information on the N downlink pilot signals and performing
feedback, according to the precoding manner of the downlink pilot
signals, wherein the feedback manner comprises not feeding back or
one-time feeding back of the feedback information on the N downlink
pilot signals.
7. The method according to claim 6, wherein the precoding manner of
the downlink pilot signals comprises: using the same precoding
manner for the N downlink pilot signals and using different
precoding manners for the N downlink pilot signals, and the
acquiring the precoding manner of the downlink pilot signals
comprises: acquiring the precoding manner of the downlink pilot
signals according to the first indication message, wherein the
precoding manner of the downlink pilot signals is included in the
first indication message; or acquiring the precoding manner of the
downlink pilot signals by using a high-layer signaling; or
acquiring the precoding manner of the downlink pilot signals
according to a pre-agreement with the base station; or receiving
the precoding manner of the downlink pilot signals transmitted by
the base station; or receiving a notification signaling transmitted
by the base station, and acquiring the precoding manner of the
downlink pilot signals according to the notification signaling,
wherein the precoding manner of the downlink pilot signals is
included in the notification signaling.
8. The method according to claim 6, wherein the precoding manner of
the downlink pilot signals comprises: using the same precoding
manner for the N downlink pilot signals and using different
precoding manners for the N downlink pilot signals, and the
determining the feedback manner of the feedback information on the
N downlink pilot signals and performing feedback according to the
precoding manner of the downlink pilot signals comprises:
determining that the feedback manner of the feedback information on
the N downlink pilot signals is not feeding back, in a case that
the same precoding manner is used for the N downlink pilot signals,
if not feeding back is determined according to the notification of
the base station or a pre-agreement with the base station; or
determining one or more target receiving beams with the best signal
receiving quality from receiving beams which receive the N downlink
pilot signals, according to a measurement result of the N downlink
pilot signals, and one-time feeding back information on the target
receiving beams to the base station, in a case that the same
precoding manner is used for the N downlink pilot signals, if
one-time feeding back is determined to be required according to the
notification of the base station or a pre-agreement with the base
station; or determining one or more target receiving beams with the
best signal receiving quality from receiving beams which receive
the N downlink pilot signals, according to a measurement result of
the N downlink pilot signals, determining target transmitting beams
corresponding to the target receiving beams, and one-time feeding
back information on the target transmitting beams or information on
the downlink pilot signals received by the target receiving beams
to the base station, in a case that different precoding manners are
used for the N downlink pilot signals.
9. The method according to claim 6, wherein in a case that the
transmission manner of the N downlink pilot signals is
semi-persistent transmission and the feedback manner is one-time
feeding back of the feedback information on the N downlink pilot
signals, the method further comprises: receiving a second
indication message from the base station, wherein the second
indication message is to indicate to stop transmitting the feedback
information on the pilot signals; and stopping transmitting the
feedback information on the pilot signals to the base station
according to the second indication message.
10. A signal processing method, which is applied to a base station,
the method comprising: transmitting a third indication message to a
terminal device, wherein the third indication message is to trigger
the terminal device to transmit uplink pilot signals; receiving M
uplink pilot signals transmitted by the terminal device according
to an acquired precoding manner of the uplink pilot signals, and
measuring the M uplink pilot signals respectively, where M is an
integer greater than or equal to 2, and the transmission manner of
the M uplink pilot signals is semi-persistent transmission or
aperiodic transmission; acquiring a precoding manner of the M
uplink pilot signals; and determining a feedback manner of the
feedback information on the M uplink pilot signals and performing
feedback, according to the precoding manner of the uplink pilot
signals, wherein the feedback manner comprises not feeding back or
one-time feeding back of the feedback information on the M uplink
pilot signals.
11. The method according to claim 10, wherein the precoding manner
of the uplink pilot signals comprises: using the same precoding
manner for the M uplink pilot signals and using different precoding
manners for the M uplink pilot signals.
12. The method according to claim 11, wherein a manner of notifying
the precoding manner of the uplink pilot signals comprises:
including the precoding manner of the uplink pilot signals in the
third indication message, and notifying the precoding manner of the
uplink pilot signals by the third indication message; or
configuring the precoding manner of the uplink pilot signals to the
terminal device by using a high-layer signaling; or transmitting
the precoding manner of the uplink pilot signals to the terminal
device; or transmitting a notification signaling to the terminal
device, wherein the notification signaling comprises the precoding
manner of the uplink pilot signals; or pre-agreeing the precoding
manner of the uplink pilot signals with the terminal device.
13. The method according to claim 10, wherein the precoding manner
of the uplink pilot signals comprises: using the same precoding
manner for the M uplink pilot signals and using different precoding
manners for the M uplink pilot signals; the determining the
feedback manner of the feedback information on the M uplink pilot
signals and performing feedback according to the precoding manner
of the uplink pilot signals comprises: determining that the
feedback manner of the feedback information on the M uplink pilot
signals is not feeding back, in a case that the same precoding
manner is used for the M uplink pilot signals; or determining one
or more target uplink pilot signals with the best signal quality
according to a measurement result of the M uplink pilot signals,
and one-time feeding back information on the target uplink pilot
signals to the terminal device, in a case that different precoding
manners are used for the M uplink pilot signals.
14. The method according to claim 10, wherein in a case that the
transmission manner of the M downlink pilot signals is
semi-persistent transmission, the method further comprises:
transmitting a fourth indication message to the terminal device,
wherein the fourth indication message is to indicate the terminal
device to stop transmitting the uplink pilot signals.
15. The method according to claim 10, further comprising:
transmitting a fifth indication message to the terminal device,
wherein the fifth indication message is to notify the terminal
device whether a transmitting beam needs to be changed when the
uplink pilot signals are subsequently transmitted.
16. A signal processing method, which is applied to a terminal
device, the method comprising: receiving a third indication message
from a base station, wherein the third indication message is to
trigger transmission of uplink pilot signals; acquiring a precoding
manner of the uplink pilot signals; and transmitting M uplink pilot
signals according to the precoding manner of the uplink pilot
signals and the third indication message, where M is an integer
greater than or equal to 2, and the transmission manner of the M
uplink pilot signals is semi-persistent transmission or aperiodic
transmission, so that the base station, according to the acquired
precoding manner of the uplink pilot signals, determines a feedback
manner of the feedback information on the M uplink pilot signals
and performs feedback, and wherein the feedback manner comprises
not feeding back or one-time feeding back of the feedback
information on the M uplink pilot signals.
17. The method according to claim 16, wherein the precoding manner
of the uplink pilot signals comprises: using the same precoding
manner for the M uplink pilot signals and using different precoding
manners for the M uplink pilot signals; the acquiring the precoding
manner of the uplink pilot signals comprises: including the
precoding manner of the uplink pilot signals in the third
indication message, and acquiring the precoding manner of the
uplink pilot signals according to the third indication message; or
acquiring the precoding manner of the uplink pilot signals
according to a high-layer signaling; or acquiring the precoding
manner of the uplink pilot signals according to a pre-agreement
with the base station; or receiving the precoding manner of the
uplink pilot signals transmitted by the base station; or receiving
a notification signaling transmitted by the base station, and
acquiring the precoding manner of the uplink pilot signals
according to the notification signaling, wherein the precoding
manner of the uplink pilot signals is included in the notification
signaling.
18. The method according to claim 16, wherein in a case that the
transmission manner of the M uplink pilot signals is
semi-persistent transmission, the method further comprises:
receiving a fourth indication message transmitted by the base
station, wherein the fourth indication message is to indicate the
terminal device to stop transmitting the uplink pilot signals; and
stopping transmitting the uplink pilot signals to the base station
according to the fourth indication message.
19. The method according to claim 16, further comprising: receiving
a fifth indication message transmitted by the base station, wherein
the fifth indication message is to notify whether a transmitting
beam needs to be changed when the uplink pilot signals are
subsequently transmitted.
20. The method according to claim 16, wherein in a case that the
base station determines that the feedback manner of the feedback
information on the M uplink pilot signals is one-time feeding back
of the feedback information on the M uplink pilot signals, the
method further comprises: receiving the feedback information on the
M uplink pilot signals transmitted by the base station; and
determining an uplink transmission beam according to the feedback
information on the M uplink pilot signals.
21-33. (canceled)
34. A terminal side device, comprising a processor, a storage, and
a computer program which is stored in the storage and is capable of
running on the processor, wherein when the computer program is
executed by the processor, steps of the signal processing method
according to claim 6 are implemented.
35. A network side device, comprising a processor, a storage, and a
computer program which is stored in the storage and is capable of
running on the processor, wherein when the computer program is
executed by the processor, steps of the signal processing method
according to claim 10 are implemented.
36. A terminal side device, comprising a processor, a storage, and
a computer program which is stored in the storage and is capable of
running on the processor, wherein when the computer program is
executed by the processor, steps of the signal processing method
according to claim 16 are implemented.
37-40. (canceled)
41. The method according to claim 10, wherein the base station
transmits a first indication message to the terminal device, and a
manner of notifying the precoding manner of the downlink pilot
signals comprises: including the precoding manner of the downlink
pilot signals in the first indication message, and notifying the
precoding manner of the downlink pilot signals by the first
indication message; or configuring the precoding manner of the
downlink pilot signals to the terminal device by using a high-layer
signaling; or transmitting the precoding manner of the downlink
pilot signals to the terminal device; or transmitting a
notification signaling to the terminal device, wherein the
notification signaling comprises the precoding manner of the
downlink pilot signals; or pre-agreeing the precoding manner of the
downlink pilot signals with the terminal device.
42. The network side device according to claim 35, wherein the
network side device transmits a first indication message to the
terminal device, and a manner of notifying the precoding manner of
the downlink pilot signals comprises: including the precoding
manner of the downlink pilot signals in the first indication
message, and notifying the precoding manner of the downlink pilot
signals by the first indication message; or configuring the
precoding manner of the downlink pilot signals to the terminal
device by using a high-layer signaling; or transmitting the
precoding manner of the downlink pilot signals to the terminal
device; or transmitting a notification signaling to the terminal
device, wherein the notification signaling comprises the precoding
manner of the downlink pilot signals; or pre-agreeing the precoding
manner of the downlink pilot signals with the terminal device.
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001] The present application claims a priority of the Chinese
patent application No.201710283017.6 filed on Apr. 26, 2017, which
is incorporated herein by reference in its entirety.
TECHNICAL FIELD
[0002] Embodiments of the present disclosure relate to the field of
communication technology, and in particular, to a signal processing
method and a signal processing device.
BACKGROUND
[0003] In the New Radio (NR) system, semi-persistent channel state
information reference signal (CSI-RS) transmission and aperiodic
CSI-RS transmission are supported.
[0004] Taking a semi-persistent CSI-RS triggering as an example,
the transmitting of a semi-persistent CSI-RS by a base station may
be triggered by Media Access Control (MAC) signaling or physical
layer signaling. After receiving a trigger signaling, a terminal
device may measure the semi-persistent CSI-RS and feedback Channel
State Information (CSI). The base station may use the signaling for
triggering transmitting of the semi-persistent CSI-RS to trigger
the terminal device to feedback the semi-persistent CSI or use
another trigger signaling to trigger the terminal device to
feedback the semi-persistent CSI.
[0005] In the NR system, semi-persistent CSI-RS triggering and
aperiodic CSI-RS triggering are mainly used to trigger the terminal
device to perform semi-persistent CSI feedback and aperiodic CSI
feedback. In the process of semi-persistent CSI-RS triggering and
aperiodic transmission, the terminal device feeds back the CSI-RS
of each base station according to the indication of a base station,
thereby causing waste of resources.
SUMMARY
[0006] In view of the above, embodiments of the present disclosure
provide a signal processing method and a signal processing device
in order to effectively save signaling resources.
[0007] In order to solve the above technical problem, in a first
aspect, an embodiment of the present disclosure provides a signal
processing method, which is applied to a base station and
includes:
[0008] transmitting a first indication message to a terminal
device, wherein the first indication message is to trigger the
terminal device to transmit feedback information on pilot signals;
and
[0009] transmitting N downlink pilot signals to the terminal
device, where N is an integer greater than or equal to 2, and the
transmission manner of the N downlink pilot signals is
semi-persistent transmission or aperiodic transmission, so that the
terminal device, according to an acquired precoding manner of the
downlink pilot signals and the first indication message, determines
a feedback manner of the feedback information on the N downlink
pilot signals and performs feedback, and wherein the feedback
manner includes not feeding back or one-time feeding back of the
feedback information on the N downlink pilot signals.
[0010] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the N downlink pilot signals and using
different precoding manners for the N downlink pilot signals.
[0011] In some possible embodiments of the present disclosure, a
manner of notifying the precoding manner of the downlink pilot
signals includes:
[0012] including the precoding manner of the downlink pilot signals
in the first indication message, and notifying the precoding manner
of the downlink pilot signals by the first indication message;
or
[0013] configuring the precoding manner of the downlink pilot
signals to the terminal device by using a high-layer signaling;
or
[0014] transmitting the precoding manner of the downlink pilot
signals to the terminal device; or
[0015] transmitting a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the downlink pilot signals; or
[0016] pre-agreeing the precoding manner of the downlink pilot
signals with the terminal device.
[0017] In some possible embodiments of the present disclosure, in a
case that the terminal device determines that the feedback manner
of the feedback information on the N downlink pilot signals is
one-time feeding back of the feedback information on the N downlink
pilot signals, the method further includes:
[0018] receiving the feedback information on the N downlink pilot
signals from the terminal device; and
[0019] determining a downlink transmission beam according to the
feedback information on the N downlink pilot signals.
[0020] In a case that the transmission manner of the N downlink
pilot signals is semi-persistent transmission and the feedback
manner is one-time feeding back of the feedback information on the
N downlink pilot signals, the method further includes:
[0021] transmitting a second indication message to the terminal
device, wherein the second indication message is to indicate the
terminal device to stopping transmitting the feedback information
on the pilot signals.
[0022] In a second aspect, an embodiment of the present disclosure
provides a signal processing method, which is applied to a terminal
device and includes:
[0023] receiving a first indication message from a base station,
wherein the first indication message is to trigger transmission of
feedback information on pilot signals;
[0024] receiving N downlink pilot signals transmitted by the base
station, and measuring the N downlink pilot signals respectively,
where N is an integer greater than or equal to 2, and the
transmission manner of the N downlink pilot signals is
semi-persistent transmission or aperiodic transmission;
[0025] acquiring a precoding manner of the downlink pilot signals;
and
[0026] determining a feedback manner of the feedback information on
the N downlink pilot signals and performing feedback, according to
the precoding manner of the downlink pilot signals, wherein the
feedback manner includes not feeding back or one-time feeding back
of the feedback information on the N downlink pilot signals.
[0027] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the N downlink pilot signals and using
different precoding manners for the N downlink pilot signals,
and
[0028] the acquiring the precoding manner of the downlink pilot
signals includes:
[0029] acquiring the precoding manner of the downlink pilot signals
according to the first indication message, wherein the precoding
manner of the downlink pilot signals is included in the first
indication message; or
[0030] acquiring the precoding manner of the downlink pilot signals
by using a high-layer signaling; or
[0031] acquiring the precoding manner of the downlink pilot signals
according to a pre-agreement with the base station; or
[0032] receiving the precoding manner of the downlink pilot signals
transmitted by the base station; or
[0033] receiving a notification signaling transmitted by the base
station, and acquiring the precoding manner of the downlink pilot
signals according to the notification signaling, wherein the
precoding manner of the downlink pilot signals is included in the
notification signaling.
[0034] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the N downlink pilot signals and using
different precoding manners for the N downlink pilot signals,
and
[0035] the determining the feedback manner of the feedback
information on the N downlink pilot signals and performing feedback
according to the precoding manner of the downlink pilot signals
includes:
[0036] in a case that the same precoding manner is used for the N
downlink pilot signals, if the one-time feeding back is determined
to be required according to the notification of the base station or
a pre-agreement with the base station, determining that the
feedback manner of the feedback information on the N downlink pilot
signals is not feeding back; or
[0037] in a case that the same precoding manner is used for the N
downlink pilot signals, determining one or more target receiving
beams with the best signal receiving quality from receiving beams
which receive the N downlink pilot signals, according to a
measurement result of the N downlink pilot signals, and one-time
feeding back information on the target receiving beams to the base
station; or
[0038] in a case that different precoding manners are used for the
N downlink pilot signals, determining one or more target receiving
beams with the best signal receiving quality from receiving beams
which receive the N downlink pilot signals, according to a
measurement result of the N downlink pilot signals, determining
target transmitting beams corresponding to the target receiving
beams, and one-time feeding back information on the target
transmitting beams or information on the downlink pilot signals
received by the target receiving beams to the base station.
[0039] In some possible embodiments of the present disclosure, in a
case that the transmission manner of the N downlink pilot signals
is semi-persistent transmission and the feedback manner is one-time
feeding back of the feedback information on the N downlink pilot
signals, the method further includes:
[0040] receiving a second indication message from the base station,
wherein the second indication message is to indicate stopping
transmitting the feedback information on the pilot signals; and
[0041] stopping transmitting the feedback information on the pilot
signals to the base station according to the second indication
message.
[0042] In a third aspect, an embodiment of the present disclosure
provides a signal processing method, which is applied to a base
station and includes:
[0043] transmitting a third indication message to a terminal
device, wherein the third indication message is to trigger the
terminal device to transmit uplink pilot signals;
[0044] receiving M uplink pilot signals transmitted by the terminal
device according to an acquired precoding manner of the uplink
pilot signals, and measuring the M uplink pilot signals
respectively, where M is an integer greater than or equal to 2, and
the transmission manner of the M uplink pilot signals is
semi-persistent transmission or aperiodic transmission;
[0045] acquiring a precoding manner of the M uplink pilot signals;
and
[0046] determining a feedback manner of the feedback information on
the M uplink pilot signals and performing feedback, according to
the precoding manner of the uplink pilot signals, wherein the
feedback manner includes not feeding back or one-time feeding back
of the feedback information on the M uplink pilot signals.
[0047] In some possible embodiments of the present disclosure, the
precoding manner of the uplink pilot signals includes: using the
same precoding manner for the M uplink pilot signals and using
different precoding manners for the M uplink pilot signals, and
[0048] a manner of notifying the precoding manner of the uplink
pilot signals includes:
[0049] including the precoding manner of the uplink pilot signals
in the third indication message, and notifying the precoding manner
of the uplink pilot signals by the third indication message; or
[0050] configuring the precoding manner of the uplink pilot signals
to the terminal device by using a high-layer signaling; or
[0051] transmitting the precoding manner of the uplink pilot
signals to the terminal device; or
[0052] transmitting a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the uplink pilot signals; or
[0053] pre-agreeing the precoding manner of the uplink pilot
signals with the terminal device.
[0054] In some possible embodiments of the present disclosure, the
precoding manner of the uplink pilot signals includes: using the
same precoding manner for the M uplink pilot signals and using
different precoding manners for the M uplink pilot signals;
[0055] the determining the feedback manner of the feedback
information on the M uplink pilot signals and performing feedback
according to the precoding manner of the uplink pilot signals
includes:
[0056] in a case that the same precoding manner is used for the M
uplink pilot signals, determining that the feedback manner of the
feedback information on the M uplink pilot signals is not feeding
back; or
[0057] in a case that different precoding manners are used for the
M uplink pilot signals, determining one or more target uplink pilot
signals with the best signal quality according to a measurement
result of the M uplink pilot signals, and one-time feeding back
information on the target uplink pilot signals to the terminal
device.
[0058] In some possible embodiments of the present disclosure, in a
case that the transmission manner of the M downlink pilot signals
is semi-persistent transmission, the method further includes:
[0059] transmitting a fourth indication message to the terminal
device, wherein the fourth indication message is to indicate the
terminal device to stop transmitting the uplink pilot signals.
[0060] In some possible embodiments of the present disclosure, the
method further includes:
[0061] transmitting a fifth indication message to the terminal
device, wherein the fifth indication message is to notify the
terminal device whether a transmitting beam needs to be changed
when the uplink pilot signals are subsequently transmitted.
[0062] In a fourth aspect, an embodiment of the present disclosure
provides a signal processing method, which is applied to a terminal
device and includes:
[0063] receiving a third indication message from a base station,
wherein the third indication message is to trigger transmission of
uplink pilot signals;
[0064] acquiring a precoding manner of the uplink pilot signals;
and
[0065] transmitting M uplink pilot signals according to the
precoding manner of the uplink pilot signals and the third
indication message, where M is an integer greater than or equal to
2, and the transmission manner of the M uplink pilot signals is
semi-persistent transmission or aperiodic transmission, so that the
base station, according to the acquired precoding manner of the
uplink pilot signals, determines a feedback manner of the feedback
information on the M uplink pilot signals and performs feedback,
and wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the M uplink
pilot signals.
[0066] In some possible embodiments of the present disclosure, the
acquiring the precoding manner of the uplink pilot signals
includes:
[0067] including the precoding manner of the uplink pilot signals
in the third indication message, and the acquiring the precoding
manner of the uplink pilot signals includes: acquiring the
precoding manner of the uplink pilot signals according to the third
indication message; or
[0068] acquiring the precoding manner of the uplink pilot signals
according to a high-layer signaling; or
[0069] acquiring the precoding manner of the uplink pilot signals
according to a pre-agreement with the base station; or
[0070] receiving the precoding manner of the uplink pilot signals
transmitted by the base station; or
[0071] receiving a notification signaling transmitted by the base
station, and acquiring the precoding manner of the uplink pilot
signals according to the notification signaling, wherein the
precoding manner of the uplink pilot signals is included in the
notification signaling.
[0072] In some possible embodiments of the present disclosure, in a
case that the transmission manner of the M uplink pilot signals is
semi-persistent transmission, the method further includes:
[0073] receiving a fourth indication message transmitted by the
base station, wherein the fourth indication message is to indicate
the terminal device to stop transmitting the uplink pilot signals;
and
[0074] stopping transmitting the uplink pilot signals to the base
station according to the fourth indication message.
[0075] In some possible embodiments of the present disclosure, the
method further includes:
[0076] receiving a fifth indication message transmitted by the base
station, wherein the fifth indication message is to notify whether
a transmitting beam needs to be changed when the uplink pilot
signals are subsequently transmitted.
[0077] In some possible embodiments of the present disclosure, in a
case that the base station determines that the feedback manner of
the feedback information on the M uplink pilot signals is one-time
feeding back of the feedback information on the M uplink pilot
signals, the method further includes:
[0078] receiving the feedback information on the M uplink pilot
signals transmitted by the base station; and
[0079] determining an uplink transmission beam according to the
feedback information on the M uplink pilot signals.
[0080] In a fifth aspect, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0081] a first transmitting module, configured to transmit a first
indication message to a terminal device, wherein the first
indication message is to trigger the terminal device to transmit
feedback information on pilot signals; and
[0082] a second transmitting module, configured to transmit N
downlink pilot signals to the terminal device, where N is an
integer greater than or equal to 2, and the transmission manner of
the N downlink pilot signals is semi-persistent transmission or
aperiodic transmission, so that the terminal device, according to
an acquired precoding manner of the downlink pilot signals and the
first indication message, determines a feedback manner of the
feedback information on the N downlink pilot signals and performs
feedback, and wherein the feedback manner includes not feeding back
or one-time feeding back of the feedback information on the N
downlink pilot signals.
[0083] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the N downlink pilot signals and using
different precoding manners for the N downlink pilot signals;
wherein the precoding manner of the downlink pilot signals is
included in the first indication message.
[0084] In some possible embodiments of the present disclosure, the
device further includes:
[0085] a configuring module, configured to include the precoding
manner of the downlink pilot signals in the first indication
message; or configure the precoding manner of the downlink pilot
signals to the terminal device by using a high-layer signaling; or
transmit the precoding manner of the downlink pilot signals to the
terminal device; or transmit a notification signaling to the
terminal device, wherein the notification signaling includes the
precoding manner of the downlink pilot signals; or pre-agree the
precoding manner of the downlink pilot signals with the terminal
device.
[0086] In a sixth aspect, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0087] a first transmitting module, configured to receive a first
indication message from a base station, wherein the first
indication message is to trigger transmission of feedback
information on pilot signals;
[0088] a second transmitting module, configured to receive N
downlink pilot signals transmitted by the base station, and measure
the N downlink pilot signals respectively, where N is an integer
greater than or equal to 2, and the transmission manner of the N
downlink pilot signals is semi-persistent transmission or aperiodic
transmission;
[0089] an acquiring module, configured to acquire a precoding
manner of the downlink pilot signals; and
[0090] a determining module, configured to determine a feedback
manner of the feedback information on the N downlink pilot signals
and perform feedback, according to the precoding manner of the
downlink pilot signals, wherein the feedback manner includes not
feeding back or one-time feeding back of the feedback information
on the N downlink pilot signals.
[0091] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the N downlink pilot signals and using
different precoding manners for the N downlink pilot signals, and
the acquiring module is specifically configured to:
[0092] acquire the precoding manner of the downlink pilot signals
according to the first indication message, wherein the precoding
manner of the downlink pilot signals is included in the first
indication message; or
[0093] acquire the precoding manner of the downlink pilot signals
by using a high-layer signaling; or
[0094] acquire the precoding manner of the downlink pilot signals
according to a pre-agreement with the base station; or
[0095] receive the precoding manner of the downlink pilot signals
transmitted by the base station; or
[0096] receive a notification signaling transmitted by the base
station, and acquire the precoding manner of the downlink pilot
signals according to the notification signaling, wherein the
precoding manner of the downlink pilot signals is included in the
notification signaling.
[0097] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the N downlink pilot signals and using
different precoding manners for the N downlink pilot signals, and
the determining module is specifically configured to:
[0098] in a case that the same precoding manner is used for the N
downlink pilot signals, if not feeding back is determined according
to the notification of the base station or a pre-agreement with the
base station, determine that the feedback manner of the feedback
information on the N downlink pilot signals is not feeding back;
or
[0099] in a case that the same precoding manner is used for the N
downlink pilot signals, if one-time feeding back is determined to
be required according to the notification of the base station or a
pre-agreement with the base station, determine one or more target
receiving beams with the best signal receiving quality from
receiving beams which receive the N downlink pilot signals,
according to a measurement result of the N downlink pilot signals,
and one-time feed back information on the target receiving beams to
the base station; or
[0100] in a case that different precoding manners are used for the
N downlink pilot signals, determine one or more target receiving
beams with the best signal receiving quality from receiving beams
which receive the N downlink pilot signals, according to a
measurement result of the N downlink pilot signals, determine
target transmitting beams corresponding to the target receiving
beams, and one-time feed back information on the target
transmitting beams or information on the downlink pilot signals
received by the target receiving beams to the base station.
[0101] In a seventh aspect, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0102] a first transmitting module, configured to transmit a third
indication message to a terminal device, wherein the third
indication message is to trigger the terminal device to transmit
uplink pilot signals;
[0103] a receiving module, configured to receive M uplink pilot
signals transmitted by the terminal device according to an acquired
precoding manner of the uplink pilot signals, and measure the M
uplink pilot signals respectively, where M is an integer greater
than or equal to 2, and the transmission manner of the M uplink
pilot signals is semi-persistent transmission or aperiodic
transmission;
[0104] an acquiring module, configured to acquire a precoding
manner of the M uplink pilot signals; and
[0105] a determining module, configured to determine a feedback
manner of the feedback information on the M uplink pilot signals
and perform feedback, according to the precoding manner of the
uplink pilot signals, wherein the feedback manner includes not
feeding back or one-time feeding back of the feedback information
on the M uplink pilot signals.
[0106] In some possible embodiments of the present disclosure, the
precoding manner of the uplink pilot signals includes: using the
same precoding manner for the M uplink pilot signals and using
different precoding manners for the M uplink pilot signals.
[0107] In some possible embodiments of the present disclosure, the
device further includes:
[0108] a configuring module, configured to include the precoding
manner of the uplink pilot signals in the third indication message,
or configure the precoding manner of the uplink pilot signals to
the terminal device by using a high-layer signaling, or transmit
the precoding manner of the uplink pilot signals to the terminal
device, or transmit a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the uplink pilot signals, or pre-agree the precoding
manner of the uplink pilot signals with the terminal device.
[0109] In some possible embodiments of the present disclosure, the
precoding manner of the uplink pilot signals includes: using the
same precoding manner for the M uplink pilot signals and using
different precoding manners for the M uplink pilot signals; and the
determining module is specifically configured to:
[0110] in a case that the same precoding manner is used for the M
uplink pilot signals, determine that the feedback manner of the
feedback information on the M uplink pilot signals is not feeding
back; or in a case that different precoding manners are used for
the M uplink pilot signals, determine one or more target uplink
pilot signals with the best signal quality according to a
measurement result of the M uplink pilot signals, and one-time feed
back information on the target uplink pilot signals to the terminal
device.
[0111] In an eighth aspect, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0112] a first receiving module, configured to receive a third
indication message from a base station, wherein the third
indication message is to trigger transmission of uplink pilot
signals;
[0113] an acquiring module, configure to acquire a precoding manner
of the uplink pilot signals; and
[0114] a transmitting module, configured to transmit M uplink pilot
signals according to the precoding manner of the uplink pilot
signals and the third indication message, where M is an integer
greater than or equal to 2, and the transmission manner of the M
uplink pilot signals is semi-persistent transmission or aperiodic
transmission, so that the base station, according to the acquired
precoding manner of the uplink pilot signals, determines a feedback
manner of the feedback information on the M uplink pilot signals
and performs feedback, and wherein the feedback manner includes not
feeding back or one-time feeding back of the feedback information
on the M uplink pilot signals.
[0115] In some possible embodiments of the present disclosure, the
precoding manner of the uplink pilot signals includes: using the
same precoding manner for the M uplink pilot signals and using
different precoding manners for the M uplink pilot signals; and the
acquiring module is specifically configured to:
[0116] acquire the precoding manner of the uplink pilot signals
according to the third indication message, wherein the precoding
manner of the uplink pilot signals is included in the third
indication message; or
[0117] acquire the precoding manner of the uplink pilot signals
according to a high-layer signaling; or
[0118] acquire the precoding manner of the uplink pilot signals
according to a pre-agreement with the base station; or
[0119] receive the precoding manner of the uplink pilot signals
transmitted by the base station; or
[0120] receive a notification signaling transmitted by the base
station, and acquire the precoding manner of the uplink pilot
signals according to the notification signaling, wherein the
precoding manner of the uplink pilot signals is included in the
notification signaling.
[0121] In a ninth aspect, an embodiment of the present disclosure
provides a network side device, which includes a processor, a
storage, and a computer program which is stored in the storage and
is capable of running on the processor, wherein when the computer
program is executed by the processor, steps of the signal
processing method according to the first aspect are
implemented.
[0122] In a tenth aspect, an embodiment of the present disclosure
provides a terminal device side device, which includes a processor,
a storage, and a computer program which is stored in the storage
and is capable of running on the processor, wherein when the
computer program is executed by the processor, steps of the signal
processing method according to the second aspect are
implemented.
[0123] In an eleventh aspect, an embodiment of the present
disclosure provides a network side device, which includes a
processor, a storage, and a computer program which is stored in the
storage and is capable of running on the processor, wherein when
the computer program is executed by the processor, steps of the
signal processing method according to the third aspect are
implemented.
[0124] In a twelfth aspect, an embodiment of the present disclosure
provides a terminal device side device, which includes a processor,
a storage, and a computer program which is stored in the storage
and is capable of running on the processor, wherein when the
computer program is executed by the processor, steps of the signal
processing method according to the fourth aspect are
implemented.
[0125] In a thirteenth aspect, an embodiment of the present
disclosure provides a computer readable storage medium on which a
computer program is stored, wherein when the computer program is
executed by a processor, steps of the signal processing method
according to the first aspect are implemented.
[0126] In a fourteenth aspect, an embodiment of the present
disclosure provides a computer readable storage medium on which a
computer program is stored, wherein when the computer program is
executed by a processor, steps of the signal processing method
according to the second aspect are implemented.
[0127] In a fifteenth aspect, an embodiment of the present
disclosure provides a computer readable storage medium on which a
computer program is stored, wherein when the computer program is
executed by a processor, steps of the signal processing method
according to the third aspect are implemented.
[0128] In a sixteenth aspect, an embodiment of the present
disclosure provides a computer readable storage medium on which a
computer program is stored, wherein when the computer program is
executed by a processor, steps of the signal processing method
according to the fourth aspect are implemented.
[0129] The above technical solutions provided by the embodiments of
the present disclosure can bring about the following advantageous
effects.
[0130] In the embodiments of the present disclosure, the base
station or the terminal device may not transmit feedback
information on a plurality of pilot signals, or may one-time
transmit feedback information on a plurality of pilot signals.
Therefore, unlike the related art, with the solutions in the
embodiments of the present disclosure, it is not required to
transmit feedback information separately for each pilot signal,
thereby effectively saving signaling resources.
BRIEF DESCRIPTION OF THE DRAWINGS
[0131] In order to illustrate the technical solutions of
embodiments of the present disclosure or the related art in a
clearer manner, the drawings desired for the embodiments of the
present disclosure will be described hereinafter briefly.
Obviously, the following drawings merely relate to some embodiments
of the present disclosure, and based on these drawings, a person
skilled in the art may obtain other drawings without any creative
effort.
[0132] FIG. 1 is a flowchart showing a signal processing method
according to some embodiments of the present disclosure;
[0133] FIG. 2 is another flowchart showing a signal processing
method according to some embodiments of the present disclosure;
[0134] FIG. 3 is yet another flowchart showing a signal processing
method according to some embodiments of the present disclosure;
[0135] FIG. 4 is still yet another flowchart showing a signal
processing method according to some embodiments of the present
disclosure;
[0136] FIG. 5 is a schematic view showing signal transmission in
some embodiments of the present disclosure;
[0137] FIG. 6 is a schematic view showing signal transmission in
some embodiments of the present disclosure;
[0138] FIG. 7 is another schematic view showing signal transmission
in some embodiments of the present disclosure;
[0139] FIG. 8 is yet another schematic view showing signal
transmission in some embodiments of the present disclosure;
[0140] FIG. 9 is a schematic view showing a signal processing
device according to some embodiments of the present disclosure;
[0141] FIG. 10 is a structural view showing a signal processing
device according to some embodiments of the present disclosure;
[0142] FIG. 11 is another schematic view showing a signal
processing device according to some embodiments of the present
disclosure;
[0143] FIG. 12 is another structural view showing a signal
processing device according to some embodiments of the present
disclosure;
[0144] FIG. 13 is yet another schematic view showing a signal
processing device according to some embodiments of the present
disclosure;
[0145] FIG. 14 is yet another structural view showing a signal
processing device according to some embodiments of the present
disclosure;
[0146] FIG. 15 is still yet another schematic view showing a signal
processing device according to some embodiments of the present
disclosure;
[0147] FIG. 16 is still yet another structural view showing a
signal processing device according to some embodiments of the
present disclosure;
[0148] FIG. 17 is a schematic view showing a base station according
to some embodiments of the present disclosure;
[0149] FIG. 18 is another schematic view showing a base station
according to some embodiments of the present disclosure;
[0150] FIG. 19 is a schematic view showing a terminal device
according to some embodiments of the present disclosure; and
[0151] FIG. 20 is another schematic view showing a terminal device
according to some embodiments of the present disclosure.
DETAILED DESCRIPTION
[0152] Specific embodiments of the present disclosure will be
further described in detail below with reference to the drawings
and embodiments. The following examples are intended to illustrate
the present disclosure, but are not intended to limit the scope of
the embodiments of the present disclosure.
[0153] As shown in FIG. 1, an embodiment of the present disclosure
provides a signal processing method, which is applied to a base
station and includes Step 101 to 102.
[0154] Step 101: transmitting a first indication message to a
terminal device, wherein the first indication message is to trigger
the terminal device to transmit feedback information on pilot
signals.
[0155] Step 102: transmitting N downlink pilot signals to the
terminal device, where N is an integer greater than or equal to 2,
and the transmission manner of the N downlink pilot signals is
semi-persistent transmission or aperiodic transmission.
[0156] Then, according to an acquired precoding manner of the
downlink pilot signals and the first indication message, the
terminal device determines a feedback manner of the feedback
information on the N downlink pilot signals and performs feedback,
wherein the feedback manner includes not feeding back or one-time
feeding back of the feedback information on the N downlink pilot
signals.
[0157] The downlink pilot signals include but are not limited to
channel state information reference signal (CSI-RS).
[0158] In the above embodiment, the precoding manner of the
downlink pilot signals includes: using the same precoding manner
for the N downlink pilot signals and using different precoding
manners for the N downlink pilot signals.
[0159] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals is included in the
first indication message, and the precoding manner of the downlink
pilot signals is notified by using the first indication message.
Then, the terminal device acquires the precoding manner of the
downlink pilot signals through the first indication message.
[0160] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals may also be
configured thorough any of the following ways:
[0161] configuring the precoding manner of the downlink pilot
signals to the terminal device by using a high-layer signaling;
or
[0162] transmitting the precoding manner of the downlink pilot
signals to the terminal device; or
[0163] transmitting a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the downlink pilot signals; or
[0164] pre-agreeing the precoding manner of the downlink pilot
signals with the terminal device.
[0165] In some possible embodiments of the present disclosure, in a
case that the terminal device determines that the feedback manner
of the feedback information on the N downlink pilot signals is
one-time feeding back of the feedback information on the N downlink
pilot signals, the method further includes:
[0166] receiving the feedback information on the N downlink pilot
signals from the terminal device, and determining a downlink
transmission beam according to the feedback information on the N
downlink pilot signals, so as to improve transmission
performance.
[0167] In the above embodiment, in a case that the transmission
manner of the N downlink pilot signals is semi-persistent
transmission and the feedback manner is one-time feeding back of
the feedback information on the N downlink pilot signals, the
method further includes: transmitting a second indication message
to the terminal device, wherein the second indication message is to
indicate the terminal device to stop transmitting the feedback
information on the pilot signals.
[0168] In the embodiments of the present disclosure, the terminal
device may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0169] As shown in FIG. 2, an embodiment of the present disclosure
provides a signal processing method, which is applied to a base
station and includes Steps 201 to 204:
[0170] Step 201: receiving a first indication message from a base
station, wherein the first indication message is to trigger
transmission of feedback information on pilot signals.
[0171] Step 202: receiving N downlink pilot signals transmitted by
the base station, and measuring the N downlink pilot signals
respectively, where N is an integer greater than or equal to 2, and
the transmission manner of the N downlink pilot signals is
semi-persistent transmission or aperiodic transmission.
[0172] The downlink pilot signals include but are not limited to
CSI-RS.
[0173] Step 203: acquiring a precoding manner of the downlink pilot
signals.
[0174] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the N downlink pilot signals and using
different precoding manners for the N downlink pilot signals.
[0175] Herein, the terminal device may acquire the precoding manner
of the downlink pilot signals in any of the following ways.
[0176] The terminal device may acquire the precoding manner of the
downlink pilot signals through the first indication message,
wherein the precoding manner of the downlink pilot signals is
included in the first indication message; or
[0177] the terminal device may acquire the precoding manner of the
downlink pilot signals by using a high-layer signaling; or
[0178] the terminal device may acquire the precoding manner of the
downlink pilot signals according to a pre-agreement with the base
station; or
[0179] the terminal device may receive the precoding manner of the
downlink pilot signals transmitted by the base station; or
[0180] the terminal device may receive a notification signaling
transmitted by the base station, and acquire the precoding manner
of the downlink pilot signals according to the notification
signaling, wherein the precoding manner of the downlink pilot
signals is included in the notification signaling.
[0181] Step 204: determining a feedback manner of the feedback
information on the N downlink pilot signals and performing
feedback, according to the precoding manner of the downlink pilot
signals, wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the N downlink
pilot signals.
[0182] In this step, in a case that the same precoding manner is
used for the N downlink pilot signals, if not feeding back is
determined according to the notification of the base station or a
pre-agreement with the base station, the terminal device determines
that the feedback manner of the feedback information on the N
downlink pilot signals is not feeding back; or
[0183] in a case that the same precoding manner is used for the N
downlink pilot signals, if one-time feeding back is determined to
be required according to the notification of the base station or a
pre-agreement with the base station, the terminal device determines
one or more target receiving beams with the best signal receiving
quality from receiving beams which receive the N downlink pilot
signals, according to a measurement result of the N downlink pilot
signals, and one-time feeds back information on the target
receiving beams to the base station; or
[0184] in a case that different precoding manners are used for the
N downlink pilot signals, the terminal device determines one or
more target receiving beams with the best signal receiving quality
from receiving beams which receive the N downlink pilot signals,
according to a measurement result of the N downlink pilot signals,
determines target transmitting beams corresponding to the target
receiving beams, and one-time feeds back information on the target
transmitting beams or information on the downlink pilot signals
received by the target receiving beams to the base station.
[0185] That is, in a case that it is determined that the same
precoding manner is used for the N downlink pilot signals, it is
necessary to further determine the feedback manner in combination
with the notification of the base station or the pre-arrangement
with the base station. How the base station informs the terminal
device is not limited herein, for example, the base station may
notify the terminal device by a separate signaling, or notify the
terminal device together with other signaling, and the like.
[0186] In this embodiment, in a case that the transmission manner
of the N downlink pilot signals is semi-persistent transmission and
the feedback manner is one-time feeding back of the feedback
information on the N downlink pilot signals, the method may further
include:
[0187] receiving a second indication message from the base station,
wherein the second indication message is to indicate stopping
transmitting the feedback information on the pilot signals; and
stopping transmitting the feedback information on the pilot signals
to the base station according to the second indication message.
[0188] In the embodiments of the present disclosure, the terminal
device may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0189] As shown in FIG. 3, an embodiment of the present disclosure
provides a signal processing method, which is applied to a base
station and includes Steps 301 to 304:
[0190] Step 301: transmitting a third indication message to a
terminal device, wherein the third indication message is to trigger
the terminal device to transmit uplink pilot signals.
[0191] The uplink pilot signals are not limited to Sounding
Reference Signals (SRS).
[0192] Step 302: receiving M uplink pilot signals transmitted by
the terminal device according to an acquired precoding manner of
the uplink pilot signals, and measuring the M uplink pilot signals
respectively, where M is an integer greater than or equal to 2, and
the transmission manner of the M uplink pilot signals is
semi-persistent transmission or aperiodic transmission.
[0193] Step 303: acquiring a precoding manner of the M uplink pilot
signals.
[0194] In some possible embodiments of the present disclosure, the
precoding manner of the downlink pilot signals includes: using the
same precoding manner for the M uplink pilot signals and using
different precoding manners for the M uplink pilot signals. The
base station may indicate the precoding manner of the M uplink
pilot signals to the terminal device in the following ways:
[0195] including the precoding manner of the uplink pilot signals
in the third indication message, and notifying the precoding manner
of the uplink pilot signals by the third indication message; or
[0196] configuring the precoding manner of the uplink pilot signals
to the terminal device by using a high-layer signaling; or
[0197] transmitting the precoding manner of the uplink pilot
signals to the terminal device; or
[0198] transmitting a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the uplink pilot signals; or
[0199] pre-agreeing the precoding manner of the uplink pilot
signals with the terminal device.
[0200] After the base station indicates the precoding mode to the
terminal device, the base station may store the information by
itself. Therefore, in this step, the precoding manner of the uplink
pilot signals may be acquired by using the information stored by
the base station itself.
[0201] S304: determining a feedback manner of the feedback
information on the M uplink pilot signals and performing feedback,
according to the precoding manner of the uplink pilot signals,
wherein the feedback manner includes not feeding back or one-time
feeding back of the feedback information on the M uplink pilot
signals.
[0202] In this step, the base station may determine the feedback
manner in the following ways:
[0203] the determining the feedback manner of the feedback
information on the M uplink pilot signals and performing feedback
according to the precoding manner of the uplink pilot signals
includes:
[0204] in a case that the same precoding manner is used for the M
uplink pilot signals, determining that the feedback manner of the
feedback information on the M uplink pilot signals is not feeding
back; or
[0205] in a case that different precoding manners are used for the
M uplink pilot signals, determining one or more target uplink pilot
signals with the best signal quality according to a measurement
result of the M uplink pilot signals, and one-time feeding back
information on the target uplink pilot signals to the terminal
device.
[0206] In a case that the transmission manner of the M downlink
pilot signals is semi-persistent transmission, the method may
further include:
[0207] transmitting a fourth indication message to the terminal
device, wherein the fourth indication message is to indicate the
terminal device to stop transmitting the uplink pilot signals.
[0208] Further, the embodiment of the present disclosure may
further include: transmitting a fifth indication message to the
terminal device, wherein the fifth indication message is to notify
the terminal device whether a transmitting beam needs to be changed
when the uplink pilot signals are subsequently transmitted.
[0209] In the embodiments of the present disclosure, the base
station may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0210] As shown in FIG. 4, an embodiment of the present disclosure
provides a signal processing method, which is applied to a terminal
device and includes Steps 401 to 403:
[0211] Step 401: receiving a third indication message from a base
station, wherein the third indication message is to trigger
transmission of uplink pilot signals.
[0212] The uplink pilot signals include but are not limited to
Sounding Reference Signals (SRS).
[0213] Step 402: acquiring a precoding manner of the uplink pilot
signals.
[0214] The precoding manner of the uplink pilot signals includes:
using the same precoding manner for the M uplink pilot signals and
using different precoding manners for the M uplink pilot
signals.
[0215] Herein, the terminal device may acquire the precoding manner
of the uplink pilot signals in the following ways.
[0216] including the precoding manner of the uplink pilot signals
in the third indication message, and acquiring the precoding manner
of the uplink pilot signals according to the third indication
message; or
[0217] acquiring the precoding manner of the uplink pilot signals
according to a high-layer signaling; or
[0218] acquiring the precoding manner of the uplink pilot signals
according to a pre-agreement with the base station; or
[0219] receiving the precoding manner of the uplink pilot signals
transmitted by the base station; or
[0220] receiving a notification signaling transmitted by the base
station, and acquiring the precoding manner of the uplink pilot
signals according to the notification signaling, wherein the
precoding manner of the uplink pilot signals is included in the
notification signaling.
[0221] In the above embodiment of the present disclosure, in a case
that the transmission manner of the M uplink pilot signals is
semi-persistent transmission, the method further includes:
[0222] receiving a fourth indication message transmitted by the
base station, wherein the fourth indication message is to indicate
the terminal device to stop transmitting the uplink pilot signals;
and stop transmitting the uplink pilot signals to the base station
according to the fourth indication message.
[0223] In the above embodiment, the method further includes:
receiving a fifth indication message transmitted by the base
station, wherein the fifth indication message is to notify whether
a transmitting beam needs to be changed when the uplink pilot
signals are subsequently transmitted.
[0224] In the above embodiment, the method further includes: in a
case that the base station determines that the feedback manner of
the feedback information on the M uplink pilot signals is one-time
feeding back of the feedback information on the M uplink pilot
signals, receiving the feedback information on the M uplink pilot
signals transmitted by the base station, and determining an uplink
transmission beam according to the feedback information on the M
uplink pilot signals.
[0225] Step 403: transmitting M uplink pilot signals according to
the precoding manner of the uplink pilot signals and the third
indication message, where M is an integer greater than or equal to
2, and the transmission manner of the M uplink pilot signals is
semi-persistent transmission or aperiodic transmission, so that the
base station, according to the acquired precoding manner of the
uplink pilot signals, determines a feedback manner of the feedback
information on the M uplink pilot signals and performs feedback,
and wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the M uplink
pilot signals.
[0226] In the embodiments of the present disclosure, the base
station may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0227] In the following embodiment, a method for a base station to
trigger semi-persistent CSI-RS transmission and for a terminal
device to feedback is described. The specific process is as
follows:
[0228] The base station transmits a command to trigger transmission
of a semi-persistent CSI-RS, wherein the command instructs the
terminal device to start feeding back information. After
transmitting the command which triggers transmission of the
semi-persistent CSI-RS, the base station transmits a
semi-persistent CSI-RS. As shown in FIG. 5, after transmitting the
command, the base station transmits N times of semi-persistent
CSI-RS, where N is an integer greater than or equal to 2. The
semi-persistent CSI-RS transmitted each time by the base station at
least occupies one time unit, and the interval between the
semi-persistent CSI-RSs transmitted for two times is greater than
or equal to zero (0) time unit.
[0229] Each time the semi-persistent CSI-RS is transmitted, the
base station may use the same precoding (transmitted in the same
beam direction), or may use different precodings (transmitted in
different beam directions). The information as to whether the base
station uses the same precoding or different precodings may be
transmitted to the terminal device together in the command which
triggers transmission of the semi-persistent CSI-RS, or transmitted
separately to the terminal device, or transmitted to the terminal
device together with other signaling, or configured to be
transmitted to the terminal device through high-layer signaling, or
configured in a manner pre-agreed with the terminal device. If the
base station only uses one type of precoding, then there is no need
to notify the terminal device.
[0230] Thereafter, the base station transmits a command to trigger
stopping the semi-persistent CSI-RS command, the transmission of
the semi-persistent CSI-RS is stopped, and the terminal device is
instructed to stop the feedback.
[0231] After receiving each aperiodic CSI-RS, the terminal device
performs measurements separately.
[0232] According to whether the N times of semi-persistent CSI-RSs
transmitted by the base station use the same precoding, the
terminal device may have different processing methods:
[0233] if the N times of semi-persistent CSI-RSs transmitted by the
base station use the same precoding (transmitted in the same beam
direction), the terminal device will use different receiving beams
to receive the semi-persistent CSI-RS, that is, a course of
training the terminal device to receive beams. According to the
levels of received signals, the terminal device determines the best
one or more receiving beams, herein referred to as target receiving
beam. The terminal device may not feedback any information to the
base station, or one-time feed back information on the target
receiving beam, such as a beam index or the like, according to the
command which triggers stopping the semi-persistent CSI-RS; and
[0234] if the N times of semi-persistent CSI-RSs transmitted by the
base station use different precodings (transmitted in different
beam directions), the terminal device will receive the
semi-persistent CSI-RS, determine the best target receiving beam
according to the levels of the received signals, and determine the
target transmitting beam corresponding to the target receiving
beam. The terminal device one-time feeds back relevant information
on the target transmitting beam (such as a beam index) or an index
of CSI-RS received by the target receiving beam, according to the
command which triggers stopping the semi-persistent CSI-RS.
[0235] After receiving the feedback information from the terminal
device, the base station performs downlink data transmission
according to the feedback information. For example, if the terminal
device feeds back one best base station transmitting beam (beam
index or CSI-RS index), then when the data is subsequently
transmitted, the base station will transmit data to the terminal
device in the direction of the transmitting beam, thereby improving
the transmission performance.
[0236] In the following embodiment, a method for a base station to
trigger an aperiodic CSI-RS transmission and for a terminal device
to feedback is described.
[0237] The base station transmits a command to trigger transmission
of an aperiodic CSI-RS, wherein the command instructs the terminal
device to start feeding back information.
[0238] The base station transmits N aperiodic CSI-RSs, where N is
an integer greater than or equal to 2. As shown in FIG. 6, the base
station triggers the number N of CSI-RS resources, and each CSI-RS
at least occupies one time unit. The interval between two CSI-RSs
is greater than or equal to zero (0) time unit. Each time the
CSI-RS resource is transmitted, the base station may use the same
precoding (transmitted in the same beam direction), or may use
different precodings (transmitted in different beam directions).
The information as to whether the base station uses the same
precoding signaling or different precoding signalings may be
transmitted to the terminal device together in the command which
triggers transmission of the aperiodic CSI-RS, or transmitted
separately to the terminal device, or transmitted to the terminal
device together with other signaling, or configured to the terminal
device through high-layer signaling, or configured in a manner
pre-agreed with the terminal device. If the base station only uses
one type of precoding, then there is no need to notify the terminal
device.
[0239] After receiving each aperiodic CSI-RS, the terminal device
performs measurements separately.
[0240] According to whether the aperiodic CSI-RSs transmitted by
the base station use the same precoding, the terminal device may
have different processing methods:
[0241] if the N aperiodic CSI-RSs transmitted by the base station
use the same precoding (transmitted in the same beam direction),
the terminal device will use different receiving beams to receive
the aperiodic CSI-RSs, that is, a course of training the terminal
device to receive beams. According to the levels of received
signals, the terminal device determines the best one or more
receiving beams, herein referred to as target receiving beam. The
terminal device may not feedback any information to the base
station, or one-time feed back information on the target receiving
beam; and
[0242] if the N aperiodic CSI-RSs transmitted by the base station
use different precodings (transmitted in different beam
directions), the terminal device will receive the aperiodic
CSI-RSs, determine the best target receiving beam according to the
levels of the received signals, and determine the target
transmitting beam corresponding to the target receiving beam. The
terminal device one-time feeds back relevant information on the
target transmitting beam (such as a beam index) or an index of
CSI-RS received by the target receiving beam, according to the
command which triggers stopping the semi-persistent CSI-RS.
[0243] After receiving the feedback information from the terminal
device, the base station performs downlink data transmission
according to the feedback information. For example, if the terminal
device feeds back one best base station transmitting beam (beam
index or CSI-RS index), then when the data is subsequently
transmitted, the base station will transmit data to the terminal
device in the direction of the transmitting beam, thereby improving
the transmission performance.
[0244] In the following embodiment, a method for a terminal device
to transmit semi-persistent SRS and for a base station to feedback
is described.
[0245] The base station transmits a command to trigger transmission
of semi-persistent SRS to the terminal device. At the same time,
the base station notifies the terminal device whether to transmit
the semi-persistent SRS using the same precoding (beam) or
different precodings (beams). Whether to use the same precoding
signaling or different precoding signalings may be transmitted by
the base station to the terminal device together in the command
which triggers transmission of the semi-persistent SRS, or
transmitted separately to the terminal device, or transmitted to
the terminal device together with other signaling, or configured to
the terminal device through high-layer signaling, or pre-defaulted
by the base station and the terminal device. After the base station
transmits a command to stop transmission of the semi-persistent
SRS, the terminal device no longer transmits the semi-persistent
SRS according to the received command.
[0246] The terminal device transmits the semi-persistent SRS after
receiving the command to trigger the semi-persistent SRS. As shown
in FIG. 7, the terminal device transmits M semi-persistent SRSs to
the base station, where M is an integer greater than or equal to 2.
The interval between two transmissions of SRS is greater than or
equal to zero (0) time unit.
[0247] According to the indication of the base station, the
terminal device may transmit the semi-persistent SRS using the same
precoding (beam) or different precodings (beams).
[0248] The base station receives and measures the semi-persistent
SRSs. Herein, according to the different manners in which the
terminal device transmits the semi-persistent SRS, the base station
may have different processing methods:
[0249] if the terminal device transmits the semi-persistent SRS by
using the same precoding (beam), the base station may not feedback
any information; and if the terminal device transmits the
semi-persistent SRS by using different precodings (beams), the base
station determines one or more target semi-persistent SRSs with the
best signal quality according to a measurement result of the M
semi-persistent SRSs, and one-time feeds back information of the
target semi-persistent SRS to the terminal device.
[0250] In this embodiment, the base station may also transmit
indication information to the terminal device to notify the
terminal device whether the transmitting beam needs to be changed
when the uplink pilot signals are subsequently transmitted. For
example, the base station can use a beam index to indicate the
terminal device whether the beam can be changed. For example, if a
beam index is included in the command for triggering the
semi-persistent SRS, the terminal device does not change the beam;
otherwise, the beam can be changed.
[0251] In the following embodiment, a method for a terminal device
to transmit aperiodic SRS and for a base station to feedback is
described.
[0252] The base station transmits a command to trigger transmission
of aperiodic SRS to the terminal device. At the same time, the base
station notifies the terminal device whether to transmit the
aperiodic SRS using the same precoding (beam) or different
precodings (beams). Whether to use the same precoding signaling or
different precoding signalings may be transmitted by the base
station to the terminal device together in the command which
triggers transmission of the aperiodic SRS, or transmitted
separately to the terminal device, or transmitted to the terminal
device together with other signaling, or configured to be
transmitted to the terminal device through high-layer signaling, or
pre-defaulted by the base station and the terminal device. After
the base station transmits a command to stop transmission of the
aperiodic SRS, the terminal device no longer transmits the
aperiodic SRS according to the received command.
[0253] The terminal device transmits the aperiodic SRS after
receiving the command to trigger the aperiodic SRS. As shown in
FIG. 8, the terminal device transmits M aperiodic SRSs to the base
station, where M is an integer greater than or equal to 2. The
interval between two transmissions of SRS is greater than or equal
to zero (0) time unit.
[0254] According to the indication of the base station, the
terminal device may transmit the aperiodic SRS using the same
precoding (beam) or different precodings (beams).
[0255] The base station receives and measures the aperiodic SRSs.
Herein, according to the different manners in which the terminal
device transmits the aperiodic SRS, the base station may have
different processing methods:
[0256] if the terminal device transmits the aperiodic SRS by using
the same precoding (beam), the base station may not feedback any
information; and if the terminal device transmits the aperiodic SRS
by using different precodings (beams), the base station determines
one or more target aperiodic SRSs with the best signal quality
according to a measurement result of the M aperiodic SRSs, and
one-time feeds back information of the target semi-persistent SRS
to the terminal device.
[0257] In this embodiment, the base station may also transmit
indication information to the terminal device to notify the
terminal device whether the transmitting beam needs to be changed
when the uplink pilot signals are subsequently transmitted. For
example, the base station can use a beam index to indicate the
terminal device whether the beam can be changed. For example, if a
beam index is included in the command for triggering the aperiodic
SRS, the terminal device does not change the beam; otherwise, the
beam can be changed.
[0258] As shown in FIG. 9, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0259] a first transmitting module 901, configured to transmit a
first indication message to a terminal device, wherein the first
indication message is to trigger the terminal device to transmit
feedback information on pilot signals; and a second transmitting
module 902, configured to transmit N downlink pilot signals to the
terminal device, where N is an integer greater than or equal to 2,
and the transmission manner of the N downlink pilot signals is
semi-persistent transmission or aperiodic transmission, so that the
terminal device, according to an acquired precoding manner of the
downlink pilot signals and the first indication message, determines
a feedback manner of the feedback information on the N downlink
pilot signals and performs feedback, and wherein the feedback
manner includes not feeding back or one-time feeding back of the
feedback information on the N downlink pilot signals.
[0260] The precoding manner of the downlink pilot signals includes:
using the same precoding manner for the N downlink pilot signals
and using different precoding manners for the N downlink pilot
signals.
[0261] As shown in FIG. 10, the device further includes: a
configuring module 903, configured to include the precoding manner
of the downlink pilot signals in the first indication message; or
configure the precoding manner of the downlink pilot signals to the
terminal device by using a high-layer signaling; or transmit the
precoding manner of the downlink pilot signals to the terminal
device; or transmit a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the downlink pilot signals; or pre-agree the precoding
manner of the downlink pilot signals with the terminal device.
[0262] As shown in FIG. 10, the device further includes: a
receiving module 904, configured to, in a case that the terminal
device determines that the feedback manner of the feedback
information on the N downlink pilot signals is one-time feeding
back of the feedback information on the N downlink pilot signals,
receive the feedback information on the N downlink pilot signals
from the terminal device; and a determining module 905, configured
to determine a downlink transmission beam according to the feedback
information on the N downlink pilot signals.
[0263] As shown in FIG. 10, the device further includes: a third
transmitting module 906 configured to, in a case that the
transmission manner of the N downlink pilot signals is
semi-persistent transmission and the feedback manner is one-time
feeding back of the feedback information on the N downlink pilot
signals, transmit a second indication message to the terminal
device, wherein the second indication message is to indicate the
terminal device to stop transmitting the feedback information on
the pilot signals.
[0264] For the operational principle of the device of the present
disclosure, reference may be made to the above method embodiments,
and the device may be located in the base station.
[0265] In the embodiments of the present disclosure, the terminal
device may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0266] As shown in FIG. 11, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0267] a first receiving module 1101, configured to receive a first
indication message from a base station, wherein the first
indication message is to trigger transmission of feedback
information on pilot signals; a second receiving module 1102,
configured to receive N downlink pilot signals transmitted by the
base station, and measure the N downlink pilot signals
respectively, where N is an integer greater than or equal to 2, and
the transmission manner of the N downlink pilot signals is
semi-persistent transmission or aperiodic transmission; an
acquiring module 1103, configured to acquire a precoding manner of
the downlink pilot signals; and a determining module 1104,
configured to determine a feedback manner of the feedback
information on the N downlink pilot signals and perform feedback,
according to the precoding manner of the downlink pilot signals,
wherein the feedback manner includes not feeding back or one-time
feeding back of the feedback information on the N downlink pilot
signals.
[0268] The precoding manner of the downlink pilot signals includes:
using the same precoding manner for the N downlink pilot signals
and using different precoding manners for the N downlink pilot
signals, and the acquiring module 1103 is specifically configured
to:
[0269] acquire the precoding manner of the downlink pilot signals
according to the first indication message, wherein the precoding
manner of the downlink pilot signals is included in the first
indication message; or
[0270] acquire the precoding manner of the downlink pilot signals
by using a high-layer signaling; or
[0271] acquire the precoding manner of the downlink pilot signals
according to a pre-agreement with the base station; or
[0272] receive the precoding manner of the downlink pilot signals
transmitted by the base station; or
[0273] receive a notification signaling transmitted by the base
station, and acquire the precoding manner of the downlink pilot
signals according to the notification signaling, wherein the
precoding manner of the downlink pilot signals is included in the
notification signaling.
[0274] The determining module 1104 is specifically configured
to:
[0275] in a case that the same precoding manner is used for the N
downlink pilot signals, if not feeding back is determined according
to the notification of the base station or a pre-agreement with the
base station, determine that the feedback manner of the feedback
information on the N downlink pilot signals is not feeding back;
or
[0276] in a case that the same precoding manner is used for the N
downlink pilot signals, if one-time feeding back is determined to
be required according to the notification of the base station or a
pre-agreement with the base station, determine one or more target
receiving beams with the best signal receiving quality from
receiving beams which receive the N downlink pilot signals,
according to a measurement result of the N downlink pilot signals,
and one-time feed back information on the target receiving beams to
the base station; or
[0277] in a case that different precoding manners are used for the
N downlink pilot signals, determine one or more target receiving
beams with the best signal receiving quality from receiving beams
which receive the N downlink pilot signals, according to a
measurement result of the N downlink pilot signals, determine
target transmitting beams corresponding to the target receiving
beams, and one-time feed back information on the target
transmitting beams or information on the downlink pilot signals
received by the target receiving beams to the base station.
[0278] As shown in FIG. 12, the device further includes: a
receiving module 1105 configured to, in a case that the
transmission manner of the N downlink pilot signals is
semi-persistent transmission and the feedback manner is one-time
feeding back of the feedback information on the N downlink pilot
signals, receive a second indication message from the base station,
wherein the second indication message is to indicate to stop
transmitting the feedback information on the pilot signals; and a
processing module 1106, configured to stop transmitting the
feedback information on the pilot signals to the base station
according to the second indication message.
[0279] For the operational principle of the device of the present
disclosure, reference may be made to the above method embodiments,
and the device may be located in the terminal device.
[0280] In the embodiments of the present disclosure, the terminal
device may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0281] As shown in FIG. 13, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0282] a first transmitting module 1301, configured to transmit a
third indication message to a terminal device, wherein the third
indication message is to trigger the terminal device to transmit
uplink pilot signals; a receiving module 1302, configured to
receive M uplink pilot signals transmitted by the terminal device
according to an acquired precoding manner of the uplink pilot
signals, and measure the M uplink pilot signals respectively, where
M is an integer greater than or equal to 2, and the transmission
manner of the M uplink pilot signals is semi-persistent
transmission or aperiodic transmission; an acquiring module 1303,
configured to acquire a precoding manner of the M uplink pilot
signals; and a determining module 1304, configured to determine a
feedback manner of the feedback information on the M uplink pilot
signals and perform feedback, according to the precoding manner of
the uplink pilot signals, wherein the feedback manner includes not
feeding back or one-time feeding back of the feedback information
on the M uplink pilot signals.
[0283] The precoding manner of the uplink pilot signals includes:
using the same precoding manner for the M uplink pilot signals and
using different precoding manners for the M uplink pilot signals;
the precoding manner of the uplink pilot signals is included in the
third indication message.
[0284] As shown in FIG. 14, the device further includes: a
configuring module 1305, configured to include the precoding manner
of the uplink pilot signals in the third indication message, or
configure the precoding manner of the uplink pilot signals to the
terminal device by using a high-layer signaling, or transmit the
precoding manner of the uplink pilot signals to the terminal
device, or transmit a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the uplink pilot signals, or pre-agree the precoding
manner of the uplink pilot signals with the terminal device.
[0285] The determining module 1304 is specifically configured to:
in a case that the same precoding manner is used for the M uplink
pilot signals, determine that the feedback manner of the feedback
information on the M uplink pilot signals is not feeding back; or
in a case that different precoding manners are used for the M
uplink pilot signals, determine one or more target uplink pilot
signals with the best signal quality according to a measurement
result of the M uplink pilot signals, and one-time feed back
information on the target uplink pilot signals to the terminal
device.
[0286] As shown in FIG. 14, the device further includes:
[0287] a second transmitting module 1306 configured to: in a case
that the transmission manner of the M downlink pilot signals is
semi-persistent transmission, transmit a fourth indication message
to the terminal device, wherein the fourth indication message is to
indicate the terminal device to stop transmitting the uplink pilot
signals.
[0288] As shown in FIG. 14, the device further includes:
[0289] a third transmitting module 1307 configured to transmit a
fifth indication message to the terminal device, wherein the fifth
indication message is to notify the terminal device whether a
transmitting beam needs to be changed when the uplink pilot signals
are subsequently transmitted.
[0290] For the operational principle of the device of the present
disclosure, reference may be made to the above method embodiments,
and the device may be located in the base station.
[0291] In the embodiments of the present disclosure, the base
station may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0292] As shown in FIG. 15, an embodiment of the present disclosure
provides a signal processing device, which includes:
[0293] a first receiving module 1501, configured to receive a third
indication message from a base station, wherein the third
indication message is to trigger transmission of uplink pilot
signals; an acquiring module 1502, configure to acquire a precoding
manner of the uplink pilot signals; and a transmitting module 1503,
configured to transmit M uplink pilot signals according to the
precoding manner of the uplink pilot signals and the third
indication message, where M is an integer greater than or equal to
2, and the transmission manner of the M uplink pilot signals is
semi-persistent transmission or aperiodic transmission, so that the
base station, according to the acquired precoding manner of the
uplink pilot signals, determines a feedback manner of the feedback
information on the M uplink pilot signals and performs feedback,
and wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the M uplink
pilot signals.
[0294] The precoding manner of the uplink pilot signals includes:
using the same precoding manner for the M uplink pilot signals and
using different precoding manners for the M uplink pilot signals;
and the acquiring module 1502 is specifically configured to:
[0295] acquire the precoding manner of the uplink pilot signals
according to the third indication message, wherein the precoding
manner of the uplink pilot signals is included in the third
indication message; or
[0296] acquire the precoding manner of the uplink pilot signals
according to a high-layer signaling; or
[0297] acquire the precoding manner of the uplink pilot signals
according to a pre-agreement with the base station; or
[0298] receive the precoding manner of the uplink pilot signals
transmitted by the base station; or
[0299] receive a notification signaling transmitted by the base
station, and acquire the precoding manner of the uplink pilot
signals according to the notification signaling, wherein the
precoding manner of the uplink pilot signals is included in the
notification signaling.
[0300] As shown in FIG. 16, the device further includes a second
receiving module 1504 configured to: in a case that the
transmission manner of the M uplink pilot signals is
semi-persistent transmission, receive a fourth indication message
transmitted by the base station, wherein the fourth indication
message is to indicate stop transmitting the uplink pilot signals;
and a processing module 1505, configured to stop transmitting the
uplink pilot signals to the base station according to the fourth
indication message.
[0301] As shown in FIG. 16, the device further includes a third
receiving module 1506 configured to receive a fifth indication
message transmitted by the base station, wherein the fifth
indication message is to notify whether a transmitting beam needs
to be changed when the uplink pilot signals are subsequently
transmitted.
[0302] As shown in FIG. 16, the device further includes a fourth
receiving module 1507 configured to: in a case that the base
station determines that the feedback manner of the feedback
information on the M uplink pilot signals is one-time feeding back
of the feedback information on the M uplink pilot signals, receive
the feedback information on the M uplink pilot signals transmitted
by the base station; and a determining module 1508, configured to
determine an uplink transmission beam according to the feedback
information on the M uplink pilot signals.
[0303] For the operational principle of the device of the present
disclosure, reference may be made to the above method embodiments,
and the device may be located in the base station.
[0304] In the embodiments of the present disclosure, the base
station may not transmit feedback information on a plurality of
pilot signals, or may one-time transmit feedback information on a
plurality of pilot signals. Therefore, unlike the related art, with
the solutions in the embodiments of the present disclosure, it is
not required to transmit feedback information separately for each
pilot signal, thereby effectively saving signaling resources.
[0305] As shown in FIG. 17, an embodiment of the present disclosure
provides a base station, which includes: a processor 1700
configured to read a program in a storage 1720 and execute the
following processes:
[0306] transmitting a first indication message to a terminal
device, wherein the first indication message is to trigger the
terminal device to transmit feedback information on pilot signals;
and transmitting N downlink pilot signals to the terminal device,
where N is an integer greater than or equal to 2, and the
transmission manner of the N downlink pilot signals is
semi-persistent transmission or aperiodic transmission, so that the
terminal device, according to an acquired precoding manner of the
downlink pilot signals and the first indication message, determines
a feedback manner of the feedback information on the N downlink
pilot signals and performs feedback, and wherein the feedback
manner includes not feeding back or one-time feeding back of the
feedback information on the N downlink pilot signals; and
[0307] a transceiver 1710, configured to receive and transmit data
under the control of the processor 1700.
[0308] In FIG. 17, a bus architecture may include any number of
interconnected buses and bridges. Specifically, various circuits
including one or more processors represented by the processor 1700
and storages represented by the storage 1720 are linked together by
the bus architecture. The bus architecture may also link various
other circuits together, such as peripherals, voltage regulators,
and power management circuits, as is known in the art. Therefore,
no further description is given herein. The bus interface provides
an interface. The transceiver 1710 may be a plurality of elements,
including receivers and transmitters, which provide a unit for
communicating with various other devices over a transmission
medium. The processor 1700 is responsible for managing the bus
architecture and the normal processing, and the storage 1720 may
store data used by the processor 1700 in performing operations.
[0309] The processor 1700 is responsible for managing the bus
architecture and the normal processing, and the storage 1720 may
store data used by the processor 1700 in performing operations.
[0310] The precoding manner of the downlink pilot signals includes:
using the same precoding manner for the N downlink pilot signals
and using different precoding manners for the N downlink pilot
signals.
[0311] The processor 1700 is further configured to notify the
precoding manner of the downlink pilot signals in the following
manner:
[0312] including the precoding manner of the downlink pilot signals
in the first indication message, and notifying the precoding manner
of the downlink pilot signals by the first indication message; or
configuring the precoding manner of the downlink pilot signals to
the terminal device by using a high-layer signaling; or
transmitting the precoding manner of the downlink pilot signals to
the terminal device; or transmitting a notification signaling to
the terminal device, wherein the notification signaling includes
the precoding manner of the downlink pilot signals; or pre-agreeing
the precoding manner of the downlink pilot signals with the
terminal device.
[0313] The processor 1700 is further configured to: receive the
feedback information on the N downlink pilot signals from the
terminal device; and determine a downlink transmission beam
according to the feedback information on the N downlink pilot
signals.
[0314] The processor 1700 is further configured to: in a case that
the transmission manner of the N downlink pilot signals is
semi-persistent transmission and the feedback manner is one-time
feeding back of the feedback information on the N downlink pilot
signals, transmit a second indication message to the terminal
device, wherein the second indication message is to indicate the
terminal device to stop transmitting the feedback information on
the pilot signals.
[0315] As shown in FIG. 18, an embodiment of the present disclosure
provides a base station, which includes: a processor 1800
configured to read a program in a storage 1820 and execute the
following process:
[0316] transmitting a third indication message to a terminal
device, wherein the third indication message is to trigger the
terminal device to transmit uplink pilot signals; receiving M
uplink pilot signals transmitted by the terminal device according
to an acquired precoding manner of the uplink pilot signals, and
measuring the M uplink pilot signals respectively, where M is an
integer greater than or equal to 2, and the transmission manner of
the M uplink pilot signals is semi-persistent transmission or
aperiodic transmission; acquiring a precoding manner of the M
uplink pilot signals; and determining a feedback manner of the
feedback information on the M uplink pilot signals and performing
feedback, according to the precoding manner of the uplink pilot
signals, wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the M uplink
pilot signals; and
[0317] a transceiver 1810, configured to receive and transmit data
under the control of the processor 1800.
[0318] In FIG. 18, a bus architecture may include any number of
interconnected buses and bridges. Specifically, various circuits
including one or more processors represented by the processor 1800
and storages represented by the storage 1820 are linked together by
the bus architecture. The bus architecture may also link various
other circuits together, such as peripherals, voltage regulators,
and power management circuits, as is known in the art. Therefore,
no further description is given herein. The bus interface provides
an interface. The transceiver 1810 may be a plurality of elements,
including receivers and transmitters, which provide a unit for
communicating with various other devices over a transmission
medium. The processor 1800 is responsible for managing the bus
architecture and the normal processing, and the storage 1820 may
store data used by the processor 1800 in performing operations.
[0319] The processor 1800 is responsible for managing the bus
architecture and the normal processing, and the storage 1820 may
store data used by the processor 1800 in performing operations.
[0320] The precoding manner of the uplink pilot signals includes:
using the same precoding manner for the M uplink pilot signals and
using different precoding manners for the M uplink pilot
signals.
[0321] The processor 1800 is further configured to: include the
precoding manner of the uplink pilot signals in the third
indication message, and notify the precoding manner of the uplink
pilot signals by the third indication message; or
[0322] configure the precoding manner of the uplink pilot signals
to the terminal device by using a high-layer signaling; or transmit
the precoding manner of the uplink pilot signals to the terminal
device; or transmit a notification signaling to the terminal
device, wherein the notification signaling includes the precoding
manner of the uplink pilot signals; or pre-agree the precoding
manner of the uplink pilot signals with the terminal device.
[0323] The processor 1800 is further configured to: in a case that
the same precoding manner is used for the M uplink pilot signals,
determine that the feedback manner of the feedback information on
the M uplink pilot signals is not feeding back; or in a case that
different precoding manners are used for the M uplink pilot
signals, determine one or more target uplink pilot signals with the
best signal quality according to a measurement result of the M
uplink pilot signals, and one-time feed back information on the
target uplink pilot signals to the terminal device.
[0324] The processor 1800 is further configured to transmit a
fourth indication message to the terminal device, wherein the
fourth indication message is to indicate the terminal device to
stop transmitting the uplink pilot signals.
[0325] The processor 1800 is further configured to transmitting a
fifth indication message to the terminal device, wherein the fifth
indication message is to notify the terminal device whether a
transmitting beam needs to be changed when the uplink pilot signals
are subsequently transmitted.
[0326] In FIG. 18, a bus architecture may include any number of
interconnected buses and bridges. Specifically, various circuits
including one or more processors represented by the processor 1800
and storages represented by the storage 1820 are linked together by
the bus architecture. The bus architecture may also link various
other circuits together, such as peripherals, voltage regulators,
and power management circuits, as is known in the art. Therefore,
no further description is given herein. The bus interface provides
an interface. The transceiver 1810 may be a plurality of elements,
including receivers and transmitters, which provide a unit for
communicating with various other devices over a transmission
medium. The processor 1800 is responsible for managing the bus
architecture and the normal processing, and the storage 1820 may
store data used by the processor 1800 in performing operations.
[0327] The processor 1800 is responsible for managing the bus
architecture and the normal processing, and the storage 1820 may
store data used by the processor 1800 in performing operations.
[0328] The processor 1800 is further configured to execute the
steps of the embodiment shown in FIG. 3.
[0329] As shown in FIG. 19, an embodiment of the present disclosure
provides a terminal device, which includes: a processor 1900
configured to read a program in a storage 1920 and execute the
following process:
[0330] receiving a first indication message from a base station,
wherein the first indication message is to trigger transmission of
feedback information on pilot signals; receiving N downlink pilot
signals transmitted by the base station, and measuring the N
downlink pilot signals respectively, where N is an integer greater
than or equal to 2, and the transmission manner of the N downlink
pilot signals is semi-persistent transmission or aperiodic
transmission; acquiring a precoding manner of the downlink pilot
signals; and determining a feedback manner of the feedback
information on the N downlink pilot signals and performing
feedback, according to the precoding manner of the downlink pilot
signals, wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the N downlink
pilot signals; and
[0331] a transceiver 1910, configured to receive and transmit data
under the control of the processor 1900.
[0332] In FIG. 19, a bus architecture may include any number of
interconnected buses and bridges. Specifically, various circuits
including one or more processors represented by the processor 1900
and storages represented by the storage 1920 are linked together by
the bus architecture. The bus architecture may also link various
other circuits together, such as peripherals, voltage regulators,
and power management circuits, as is known in the art. Therefore,
no further description is given herein. The bus interface provides
an interface. The transceiver 1910 may be a plurality of elements,
including receivers and transmitters, which provide a unit for
communicating with various other devices over a transmission
medium. For different user devices, a user interface 1930 may also
be an interface capable of externally or internally connecting with
a required device which includes but is not limited to a keypad, a
display, a speaker, a microphone, a joystick, etc.
[0333] The processor 1900 is responsible for managing the bus
architecture and the normal processing, and the storage 1920 may
store data used by the processor 1900 in performing operations.
[0334] The precoding manner of the downlink pilot signals includes:
using the same precoding manner for the N downlink pilot signals
and using different precoding manners for the N downlink pilot
signals
[0335] The processor 1900 is further configured to: acquire the
precoding manner of the downlink pilot signals according to the
first indication message, wherein the precoding manner of the
downlink pilot signals is included in the first indication message;
or acquire the precoding manner of the downlink pilot signals by
using a high-layer signaling; or acquire the precoding manner of
the downlink pilot signals according to a pre-agreement with the
base station; or receive the precoding manner of the downlink pilot
signals transmitted by the base station; or receive a notification
signaling transmitted by the base station, and acquire the
precoding manner of the downlink pilot signals according to the
notification signaling, wherein the precoding manner of the
downlink pilot signals is included in the notification
signaling.
[0336] The processor 1900 is further configured to: in a case that
the same precoding manner is used for the N downlink pilot signals,
if not feeding back is determined according to the notification of
the base station or a pre-agreement with the base station,
determine that the feedback manner of the feedback information on
the N downlink pilot signals is not feeding back; or in a case that
the same precoding manner is used for the N downlink pilot signals,
if the one-time feeding back is determined to be required according
to the notification of the base station or a pre-agreement with the
base station, determine one or more target receiving beams with the
best signal receiving quality from receiving beams which receive
the N downlink pilot signals, according to a measurement result of
the N downlink pilot signals, and one-time feed back information on
the target receiving beams to the base station; or in a case that
different precoding manners are used for the N downlink pilot
signals, determine one or more target receiving beams with the best
signal receiving quality from receiving beams which receive the N
downlink pilot signals, according to a measurement result of the N
downlink pilot signals, determine target transmitting beams
corresponding to the target receiving beams, and one-time feed back
information on the target transmitting beams or information on the
downlink pilot signals received by the target receiving beams to
the base station.
[0337] The processor 1900 is further configured to: receive a
second indication message from the base station, wherein the second
indication message is to indicate to stop transmitting the feedback
information on the pilot signals; and stopping transmitting the
feedback information on the pilot signals to the base station
according to the second indication message.
[0338] As shown in FIG. 20, an embodiment of the present disclosure
provides a terminal device, which includes: a processor 2000
configured to read a program in a storage 2020 and execute the
following process:
[0339] receiving a third indication message from a base station,
wherein the third indication message is to trigger transmission of
uplink pilot signals; acquiring a precoding manner of the uplink
pilot signals; and transmitting M uplink pilot signals according to
the precoding manner of the uplink pilot signals and the third
indication message, where M is an integer greater than or equal to
2, and the transmission manner of the M uplink pilot signals is
semi-persistent transmission or aperiodic transmission, so that the
base station, according to the acquired precoding manner of the
uplink pilot signals, determines a feedback manner of the feedback
information on the M uplink pilot signals and performs feedback,
and wherein the feedback manner includes not feeding back or
one-time feeding back of the feedback information on the M uplink
pilot signals; and
[0340] a transceiver 2010, configured to receive and transmit data
under the control of the processor 2000.
[0341] In FIG. 20, a bus architecture may include any number of
interconnected buses and bridges. Specifically, various circuits
including one or more processors represented by the processor 2000
and storages represented by the storage 2020 are linked together by
the bus architecture. The bus architecture may also link various
other circuits together, such as peripherals, voltage regulators,
and power management circuits, as is known in the art. Therefore,
no further description is given herein. The bus interface provides
an interface. The transceiver 2010 may be a plurality of elements,
including receivers and transmitters, which provide a unit for
communicating with various other devices over a transmission
medium. For different user devices, a user interface 2030 may also
be an interface capable of externally or internally connecting with
a required device which includes but is not limited to a keypad, a
display, a speaker, a microphone, a joystick, etc.
[0342] The processor 2000 is responsible for managing the bus
architecture and the normal processing, and the storage 2020 may
store data used by the processor 2000 in performing operations.
[0343] The processor 2000 is further configured to: acquire the
precoding manner of the uplink pilot signals according to the third
indication message, wherein the precoding manner of the uplink
pilot signals is included in the third indication message; or
acquire the precoding manner of the uplink pilot signals according
to a high-layer signaling; or acquire the precoding manner of the
uplink pilot signals according to a pre-agreement with the base
station; or receive the precoding manner of the uplink pilot
signals transmitted by the base station; or receive a notification
signaling transmitted by the base station, and acquire the
precoding manner of the uplink pilot signals according to the
notification signaling, wherein the precoding manner of the uplink
pilot signals is included in the notification signaling.
[0344] The processor 2000 is further configured to: receive a
fourth indication message transmitted by the base station, wherein
the fourth indication message is to indicate the terminal device to
stop transmitting the uplink pilot signals; and stop transmitting
the uplink pilot signals to the base station according to the
fourth indication message.
[0345] The processor 2000 is further configured to: receive a fifth
indication message transmitted by the base station, wherein the
fifth indication message is to notify whether a transmitting beam
needs to be changed when the uplink pilot signals are subsequently
transmitted.
[0346] The processor 2000 is further configured to: receive the
feedback information on the M uplink pilot signals transmitted by
the base station; and determine an uplink transmission beam
according to the feedback information on the M uplink pilot
signals.
[0347] An embodiment of the present disclosure further provides a
storage medium configured to store a computer program which is
capable of being executed by a processor to implement the above
signal processing methods.
[0348] In some embodiments of the present disclosure, it should be
understood that the disclosed method and device may be implemented
in other manners. For example, the device embodiments described
above are merely illustrative. For example, the division of the
units is only a division in terms of logical function. In actual
implementation, there may also be other division manners; for
example, multiple units or components may be combined or integrated
into another system, or some features can be omitted or not
executed. In addition, the mutual coupling or direct coupling or
communication connection as shown or discussed may be an indirect
coupling or communication connection through some interfaces,
devices or units, and may be in electrical, mechanical or other
forms.
[0349] In addition, individual functional units in various
embodiments of the present disclosure may be integrated into one
processing unit, or individual units may be physically included
separately, or two or more units may also be integrated into one
unit. The above integrated unit can be implemented in the form of
hardware or in the form of hardware plus software functional
units.
[0350] The above described integrated unit implemented in the form
of a software functional unit can be stored in a computer readable
storage medium. The software functional unit is stored in a storage
medium which includes a plurality of instructions for causing a
computer device (which may be a personal computer, a server, or a
network device, etc.) to execute part of the steps of the
transceiving methods of the various embodiments of the present
disclosure. The foregoing storage medium includes: a U disk, a
mobile hard disk, a Read-Only Memory (ROM), a Random-Access Memory
(RAM), a magnetic disk or an optical disk, and various media that
can store program codes thereon.
[0351] Described above are preferred embodiments of the present
disclosure, and it should be noted that those skilled in the art
can also make several improvements and modifications without
departing from the principles of the present disclosure, which will
also fall within the scope of protection of the present
disclosure.
* * * * *